人类星形胶质细胞体外转录组分析揭示了缺氧诱导的线粒体功能障碍、代谢调节以及免疫反应失调。

Transcriptomic Analysis of Human Astrocytes In Vitro Reveals Hypoxia-Induced Mitochondrial Dysfunction, Modulation of Metabolism, and Dysregulation of the Immune Response.

机构信息

Sheffield Institute for Translational Neuroscience, 385a Glossop Road, University of Sheffield, Sheffield S10 2HQ, UK.

出版信息

Int J Mol Sci. 2020 Oct 28;21(21):8028. doi: 10.3390/ijms21218028.

DOI:10.3390/ijms21218028

PMID:33126586

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7672558/

Abstract

Hypoxia is a feature of neurodegenerative diseases, and can both directly and indirectly impact on neuronal function through modulation of glial function. Astrocytes play a key role in regulating homeostasis within the central nervous system, and mediate hypoxia-induced changes in response to reduced oxygen availability. The current study performed a detailed characterization of hypoxia-induced changes in the transcriptomic profile of astrocytes in vitro. Human astrocytes were cultured under normoxic (5% CO, 95% air) or hypoxic conditions (1% O, 5% CO, 94% N) for 24 h, and the gene expression profile assessed by microarray analysis. In response to hypoxia 4904 genes were significantly differentially expressed (1306 upregulated and 3598 downregulated, FC ≥ 2 and ≤ 0.05). Analysis of the significant differentially expressed transcripts identified an increase in immune response pathways, and dysregulation of signalling pathways, including HIF-1 ( = 0.002), and metabolism, including glycolysis ( = 0.006). To assess whether the hypoxia-induced metabolic gene changes observed affected metabolism at a functional level, both the glycolytic and mitochondrial flux were measured using an XF bioanalyser. In support of the transcriptomic data, under physiological conditions hypoxia significantly reduced mitochondrial respiratory flux ( = 0.0001) but increased basal glycolytic flux ( = 0.0313). However, when metabolically stressed, hypoxia reduced mitochondrial spare respiratory capacity ( = 0.0485) and both glycolytic capacity ( = 0.0001) and glycolytic reserve ( < 0.0001). In summary, the current findings detail hypoxia-induced changes in the astrocyte transcriptome in vitro, identifying potential targets for modifying the astrocyte response to reduced oxygen availability in pathological conditions associated with ischaemia/hypoxia, including manipulation of mitochondrial function, metabolism, and the immune response.

摘要

缺氧是神经退行性疾病的一个特征，它可以通过调节神经胶质功能直接和间接地影响神经元功能。星形胶质细胞在调节中枢神经系统内的动态平衡方面起着关键作用，并介导缺氧诱导的变化以响应氧气供应减少。本研究详细描述了体外缺氧对星形胶质细胞转录组谱的影响。将人星形胶质细胞在常氧（5% CO，95%空气）或缺氧条件（1% O，5% CO，94% N）下培养 24 小时，通过微阵列分析评估基因表达谱。在缺氧条件下，有 4904 个基因显著差异表达（1306 个上调，3598 个下调，FC ≥ 2 和 ≤ 0.05）。对显著差异表达的转录物的分析表明，免疫反应途径增加，信号通路失调，包括 HIF-1（ = 0.002）和代谢，包括糖酵解（ = 0.006）。为了评估观察到的缺氧诱导的代谢基因变化是否在功能水平上影响代谢，使用 XF 生物分析仪测量了糖酵解和线粒体通量。支持转录组数据，在生理条件下，缺氧显著降低线粒体呼吸通量（ = 0.0001），但增加基础糖酵解通量（ = 0.0313）。然而，在代谢应激下，缺氧降低线粒体备用呼吸能力（ = 0.0485），以及糖酵解能力（ = 0.0001）和糖酵解储备（ < 0.0001）。总之，目前的研究结果详细描述了体外星形胶质细胞转录组中缺氧诱导的变化，确定了在与缺血/缺氧相关的病理条件下改变星形胶质细胞对氧气供应减少的反应的潜在靶点，包括对线粒体功能、代谢和免疫反应的调控。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ffc3/7672558/becbd11a2ca7/ijms-21-08028-g001.jpg

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人类星形胶质细胞体外转录组分析揭示了缺氧诱导的线粒体功能障碍、代谢调节以及免疫反应失调。

Transcriptomic Analysis of Human Astrocytes In Vitro Reveals Hypoxia-Induced Mitochondrial Dysfunction, Modulation of Metabolism, and Dysregulation of the Immune Response.

机构信息

Sheffield Institute for Translational Neuroscience, 385a Glossop Road, University of Sheffield, Sheffield S10 2HQ, UK.

出版信息

Int J Mol Sci. 2020 Oct 28;21(21):8028. doi: 10.3390/ijms21218028.

DOI:10.3390/ijms21218028

PMID:33126586

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7672558/

Abstract

摘要

人类星形胶质细胞体外转录组分析揭示了缺氧诱导的线粒体功能障碍、代谢调节以及免疫反应失调。

Transcriptomic Analysis of Human Astrocytes In Vitro Reveals Hypoxia-Induced Mitochondrial Dysfunction, Modulation of Metabolism, and Dysregulation of the Immune Response.

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人类星形胶质细胞体外转录组分析揭示了缺氧诱导的线粒体功能障碍、代谢调节以及免疫反应失调。

Transcriptomic Analysis of Human Astrocytes In Vitro Reveals Hypoxia-Induced Mitochondrial Dysfunction, Modulation of Metabolism, and Dysregulation of the Immune Response.

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